Feed-water heater comprising low C-Cr-Mo steel components used under wet steam

ABSTRACT

A novel low C-Cr-Mo steel having an excellent weldability and a high erosion-corrosion resistance under wet steam, which consists of, in % by weight, 0.02-0.14% of C, not more than 0.90% of Si, 0.30-0.80% of Mn, 0.70-1.60% of Cr, 0.40-0.70% of Mo and the remainder being susbtantially Fe. This novel steel is a very excellent material for fabricating the portions in the feed-water heater, for example, for a nuclear power generation plant, the portions being used under wet steam condition. The above described weldability and erosion-corrosion resistance can be improved, by additionally adding the second components of Cu, N, or B, the third components of Nb or V or the fourth components of Al, Ti or Zr in the respectively defined amounts.

The present invention relates to novel low C-Cr-Mo steel used under wetsteam and particularly improvement of a feed-water heater for a nuclearpower generation plant, for which such a steel is used.

The term "wet steam" used herein means wet steam or a condensate at ahigh temperature, when devices to be used in wet steam, for example, asurface in a shell of a closed vessel, such as the feed-water heater forthe above described nuclear power generation plant, are subjected toerosion-corrosion owing to a flow movement at a high rate ofsteam-liquid double phase flow at a high temperature, the erodedsubstances formed by the erosion-corrosion are circulated in a nuclearreactor system, whereby a problem that the total system is affected byradiation injury, is caused, and further there is a problem that thereliability of the feed-water heater itself is lowered by theerosion-corrosion. As the means for solving these problems, firstly itcan be considered in view of design that the flow rate in the totalsystem is lowered, that is a diameter of the shell of the feed-waterheater and a diameter of pipes in the piping are increased to lower theflow rate and secondly it can be considered in view of the material thatsteels having high erosion-corrosion resistance (referred to as "E.C.resistance" hereinafter) are used. The former lowering of the flow rateof the fluid in the system results into the increase of the size of theplant and an amount of steel used is increased and consequently thematerial cost and the construction cost are increased.

The inventors have analyzed and checked a large number of priorknowledge and results of studies concerning the erosion-corrosion andhave concluded that among the standard scopes of the chemicalcomposition of JIS G4109, SCMV-3 (usual name 11/4%Cr-1/2% Mo-3/4% Sisteel) shown in Table 1, the heat treatment [normalizing and tempering(abbreviated as "N-T" hereinafter) and annealing "A" hereinafter)] andthe mechanical properties (high strength level and low strength levelconcerning steel N-T and steel A respectively), high strength level of11/4%Cr-1/2%Mo-3/4% Si steels in which the carbon content is limited to0.15-0.17% near the upper limit of the standard and the heat treatmentis limited to N-T, are ones having an excellent E.C. resistance suitablefor the feed-water heater, and the properties are actually confirmed inthe experiment and it has been found that high C-11/4%Cr-1/2%Mo-3/4%Sisteels are excellent as the materials for the above described feed-waterheater in order to more improve the safety of the nuclear powergeneration plant.

                                      TABLE 1                                     __________________________________________________________________________    Standard of JIS G4109 SCMV-3                                                                           Heat  Yield Tensile                                                                             Elonga-                            Chemical composition (weight %)                                                                        treat-                                                                              point strength                                                                            tion                               C        Si  Mn  Cr  Mo  ment  (kgf/mm.sup.2)                                                                      (kgf/mm.sup.2)                                                                      (%)  Note                          __________________________________________________________________________    SCMV-3                                                                             ≦0.17                                                                      0.50 to                                                                           0.40 to                                                                           1.00 to                                                                           0.45 to                                                                           Normaliz-                                                                           ≧32                                                                          53 to 67                                                                            ≧22                                                                         High strength                          0.80                                                                              0.65                                                                              1.50                                                                              0.65                                                                              ing-                   level steel                                            tempering                                                                     Annealing                                                                           ≧24                                                                          42 to 60                                                                            ≧22                                                                         Low strength                                                                  level steel                   __________________________________________________________________________

One of the reason why such steels having C content of not less than0.15% are applied, is that it is necessary to give the hardness to thesteels in order to ensure the high E.C. resistance and another reason isthat among SCMV-3, particularly the standard of N-T steels, that is ahigh tensile strength (for example, more than 53 kgf/mm² of tensilestrength) is guaranteed.

However, when the high C-11/4%Cr-1/2%Mo-3/4% Si steels are used in orderto improve the E.C. resistance of the feed-water heater for the nuclearpower generation plant, such steels are poor in the weldability, so thatsuch steels have a number of problems.

The above described feed-water heater is mainly assembled by forming andwelding steel plates but the high C-11/4%Cr-1/2%Mo-3/4%Si steels readilycause weld cracks as seen from the fact that the weld hardenabilityindex, C equivalent (C+Si/24+Mn/6+Ni/40+Cr/5-+Mo/4+V/14 is 0.72% forexample and the weld cracking sensitivity index, P_(CM) value(C+Si/30+Mn/20+Cu/20Ni/60+Cr/20+Mo/15+V/10+5B) is 0.32% for example, sothat in order to avoid the weld cracking, it is necessary toparticularly carefully effect the preheating and the postheating andfurther to effect the annealing (generally referred to as "stressrelieving" and abbreviated as "SR") for decreasing stress after weldingat a possibly high temperature for a long time. But, this carefulpreheating is that the portion to be welded is heated to a temperatureof about 250° C. with a gas burner and therefore the weld operatingenvironment is made worse and the welding efficiency is lowered and theenergy consumption due to gas burner is conspicuous. Thus, in order toincrease the amount of energy saved and improve the operatingenvironment and the welding efficiency in building up the feed-waterheater for the nuclear power generation plant, the development of Cr-MOsteels having a low weld crack sensitivity is very important.

Thus, it is an essential requirement that the high E.C. resistanceagainst wet steam and the strength and toughness suitable for thefeed-water heater are obtained. Concerning this E.C. resistance, thepreviously used high C-11/4%Cr-1/2%Mo-3/4%Si steels are not necessarilysatisfactory and considering the durable life of the vessel and thesafety of the operation, an improvement is needed.

In a thermal power or nuclear power generation plant, multi-stage offeed-water heaters which heat water to be fed to a boiler or reactor andimprove the heat efficiency of the total plant, are used.

The materials for constructing the feed-water heater in the thermalpower and nuclear power generation plants are mainly carbon steel. Thecarbon steel usually used is generally relatively high in the erosionand corrosion resistance when pH value of the contacting fluid is high(pH: more than 9.0) and the contacting fluid is dry steam but when pHvalue of the contacting fluid is low (lower than 9.0 or neutral at about7.0) and the steam is wet, the erosion resistance is lowered and theshell or the inner structures, particularly pipes may be eroded andcorroded. In addition, when the flow rate of the flowing fluid is high,the erosion and corrosion are accelerated.

The invention will now be described with reference to the accompanyingdrawings, wherein:

FIG. 1 is a sectional view of the feed-water heater;

FIG. 2 is a perspective view of a test specimen used for theerosion-corrosion test;

FIGS. 3 and 4 are graphs showing the relationships of the tensilestrength at room temperature and the preheating temperature for theprevention of weld crack to the carbon content according to theinvention, respectively;

FIGS. 5 and 6 are graphs showing the influence of C, Cu, Ni and Sicontents upon the erosion-corrosion resistance, respectively;

FIG. 7 is a schematic view of an embodiment of the corrosion testingapparatus used in the invention;

FIGS. 8 and 9 are graphs showing the test results obtained by using thetesting apparatus of FIG. 7, respectively; and

FIG. 10 is a graph showing a corrosion test result by another testingapparatus.

In FIG. 1, the feed-water is charged into a water chamber 1 from afeed-water inlet 2 and passed through heat exchanging tubes 5 anddischarged from a feed-water outlet 3. The heat exchanging tubes areprovided in a large number, form a tube group and open through a tubeplate 4 to the water chamber 1 and are supported with tube supportplates 6 and tie rods 7 to the shell 9. Heated steam extracted from aturbine is charged into the heater through the steam inlet 10 and acondensate which has finished the heating function in a heater arrangedat a higher pressure side than the heater mentioned above, is chargedinto the heater through a drain inlet 11. These heating fluids come incontact with the surface of each tube 5 of the tube group and effect theheat exchange with the feed-water flowing in the tubes and are condensedto form drain 12, which is stored at a bottom portion in the heater anddischarged from a drain outlet 14 through a drain cooler zone 13.Uncondensed gas entrapped with the heating fluids and flowed in theheater, is flowed in the heater together with the flows 15 and 16 of theheating fluids while the flow direction being guided with the tubesupport plates 6 and discharged out of the heater through an outlet 8for the uncondensed gas provided at the terminal end of the shell.

After the heating fluids are flowed into the heater through the steaminlet 10 and the drain inlet 11, the total amount of said fluids flowsalong a serpentine flow passage formed with the tube support plates, sothat the flow rate is fairly fast. In addition, since the constructingmaterial is carbon steel, when the steam water mixture flowed throughthe drain inlet 11 and the heated steam flowed through the steam inlet10 and a fluid having a low pH value, the erosion and corrosion progressand the thickness of the shell, the heat exchanging tubes and thesupport plates is reduced. This reduction of thickness is a novelphenomenon which has never been experienced and the ambient temperatureis within a range of about 100° C.-200° C. and the clear pattern wherethe thickness of carbon steel is reduced, is developed on the surface ofthe carbon steel and when the rate of reducing the carbon steelthickness is as fast as 1.4 mm/year, the reliability of the heater isconsiderably lowered. In general, the carbon steel shows any corrosionphenomenon with lapse of time, so that it is planned that a superfluoussteel thickness for compensating the corrosion is applied top the heateror a stainless steel is used for attaining the completeness, but theabove described thickness reducing phenomenon far exceeds thesuperfluous thickness (usual about 1 mm) for compensating the corrosionand a novel countermeasure is required.

The thickness reducing phenomenon of the shell, the heat exchangingpipes and the support plates in the heater is a phenomenon caused in theinside of the heater, so that it is difficult to observe the conditionfrom the outside or it is impossible to conceive the condition at someplace, and when the thickness reduction once occurs, the repair is verydifficult or infeasible in view of the structure. Accordingly, thefeed-water heater must be designed and manufctured with the materialsnot causing the thickness reduction to ensure the reliability of theplant.

The erosion-corrosion of the outer surface of the heat exchanging pipesoccurs when the ambient temperature is about 100° C.-200° C., and thereare water drops and a steam flow, the portion where theerosion-corrosion is generated, is noticeable at the outercircumferential portion of the pipe group, particularly the lowestportion of the most outer circumference of the pipe group and since theinlet side section of the feed-water where the water temperature in theheat exchanging pipes is low, is conspicuous in the steam consumption,the erosion-corrosion is severe. In particular, the erosion-corrosionconcentrates at the lower portion of the outer circumference of the pipegroup.

An object of the present invention is to provide the steel compositionwhich is excellent in both weldability and erosion-corrosion resistanceunder wet steam, and the feed-water heater having a high reliabilitywhich is constructed with said steel.

It is apparent from the above described formulae of C equivalent andP_(CM) value that the improvement of the weldability may be obtained byreducing C content but in such a case the hardness of the steel isnaturally degraded, so that it is generally presumed that theerosion-corrosion resistance is deteriorated. It is desired that theE.C. resistance is not only more improved but also the weldability isimproved rather than that the weldability is improved withoutdeteriorating the E.C. resistance. For these demands, it is a generalcommon sense of those skilled in the art that the reduction of C contentis considered to be not proper and there has been no prior art that theE.C. resistance and the weldability are improved by the reduction of Ccontent.

It has been considered that this problem is one difficult problem whichcannot be overcome considering the economy under the present technicallevel and the above described agreement is obliged.

The inventors have made diligent studies systematically andfundamentally with respect to the relation of the C content and slightamount of alloying elements in these steels to the E.C. resistance,weldability and mechanical properties and found the unexpected followingfacts that the E.C. resistance in these Cr-Mo steels is improved.

(1) By reducing the upper limit of the C content to 0.14%, the E.C.resistance is improved.

(2) By addition of slight amounts of Cu and Ni, the E.C. resistance isnoticeably improved.

(3) When the Si content is lower, the E.C. resistance is higher.

(4) In any case of (1), (2) and (3), even if the strength level is low,the E.C. resistance is excellent.

These facts are the unexpected discovery which is opposite to the commonsense of the technical conception in the previous relative technic.

The inventors have applied these discovered facts to the steels usedunder wet steam, such as the above described feed-water heater and haveaccomplished the improvement in both the E.C. resistance and weldabilitywhich is a very difficult problem in such a use as mentioned above.

The first aspect of the present invention consists in a low C-Cr-Mosteel suitable to be used under wet steam, which has a compositionconsisting of 0.02-0.14% by weight (hereinafter, % means % by weight) ofC, not more than 0.90% of Si, 0.30-0.80% of Mn, 0.70-1.60% of Cr,0.40-0.70% of Mo and the remainder being substantially Fe.

The second aspect of the present invention consists in the low C-Cr-Mosteel having a composition consisting of a basic component (which isabove described composition of the steel of the first aspect of thepresent invention) and a second component of at least one of not morethan 0.5% of Cu, not more than 0.5% of Ni and not more than 0.005% of B,which elements serve to improve the strength of steel by solid-solutionhardening and increase in hardenability. The second aspect aims toimprove the strength of the steel of the first aspect so that the highweldability and E.C. resistance of the steel due to its low C contentcan be more improved, and further aims to improve E.C. resistance of thesteel by the action of Cu or Ni itself.

The third aspect of the present invention consists in the low C-Cr-Mosteel having a composition consisting of the basic component and a thirdcomponent of at least one of not more than 0.05% of Nb and not more than0.08% of V, which elements are precipitation hardening type elements.The third aspect aims to improve the strength of the steel of the firstaspect so that the high weldability of E.C. resistance of the steel dueto its low C content can be more improved.

The fourth aspect of the present invention consists in the low C-Cr-Mosteel having a composition consisting of the basic component and afourth component of at least one of Al, Ti and Zr in an amount of0.005-0.80% in each element, which elements serve to form a finemicrostructure in steel. The fourth aspect aims to improve the toughnessof the steel of the first aspect so that the weldability and E.C.resistance of the steel can be more improved.

The fifth aspect of the present invention consists in the low C-Cr-Mosteel having a composition consisting of the basic component, the secondcomponent and the third component.

The sixth aspect of the present invention consists in the low C-Cr-Mosteel having a composition consisting of the basic component, the secondcomponent and the fourth component.

The seventh aspect of the present invention consists in the low C-Cr-Mosteel having a composition consisting of the basic component, the thirdcomponent and the fourth component.

The eighth aspect of the present invention consists in the low C-Cr-Mosteel having a composition consisting of the basic component, the secondcomponent, the third component and the fourth component.

C, Cu and Ni are important elements in the present invention, and the Ccontent is limited to 0.02-0.13%, and each of the Cu and Ni contents arelimited to 0.16-0.30% as a preferable range for improving moreremarkably the effect of the present invention in the second, fifth,sixth and eighth aspects among the above described aspects of thepresent invention.

The reason of the limitation of the range of the contents of thecomponent elements in the steel of the above described aspects of thepresent invention is as follows.

C content is a most important requirement in the present invention, andmust be limited to not more than 0.14% in order to decrease the weldhardenability and weld cracking sensitivity, to lower the preheatingtemperature for welding, to abbreviate the postheating, to lower thestress-relief annealing temperature and to obtain excellent E.C.resistance contrary to the conventional idea. The lower C content is themore desirable for improving the weldability. However, in order toobtain a steel having sufficiently high strength and toughness withinthe temperature range of from room temperature up to about 250° C. to beused under wet steam in a feed-water heater for a nuclear powergeneration plant and the like, at least 0.02% of C must be contained inthe steel. Therefore, the lower limit of C content is limited to 0.02%.

The Cr-Mo steel having the composition according to the presentinvention has such a remarkably excellent property that the weld cracksensitivity can be considerably improved by very slight decrease in theC content. When the C content is decreased from 0.14% to 0.13%, the weldcrack sensitivity can be considerably decreased without deterioratingnoticeably the strength level. Accordingly, the upper limit of C contentis preferred to be 0.13%, more preferred to be 0.11%.

Si is an effective element for increasing the strength of steel at roomtemperature and at high temperature. In the present invention, there isa risk of decreasing of the strength due to the strict limitation of Ccontent for the purpose of developing fully the expected effect.Therefore, Si must be contained in a steel in an amount of not more than0.90% in order to maintain a given strength inexpensively without theuse of an increased amount of expensive elements of Mn, Cr, Mo and thelike. The higher content of Si is more effective for improving thestrength. However, when the Si content exceeds 0.90%, the toughness ofthe weld heat affected zone is deteriorated. Therefore, the Si contentmust be not more than 0.90%. Further, the inventors have found that,when the Si content is limited to not more than 0.45%, the E.C.resistance of the steel is remarkably improved independently of the lowC content. Therefore, it is particularly preferable to limit the Sicontent to not more than 0.45% in the steels of the first to sixteenthaspects of the present invention. This limitation is one of theimportant requirements in the seventeenth and eighteenth aspects of thepresent invention. In the steel of the present invention, it is possibleto secure the necessary strength by the action of strength-improvingelements of Mn, Cr, Mo and the like even when the Si content isdecreased to the above described low level. This fact will be explainedlater. Particularly preferable content of Si is 0.1-0.35%.

Mn is necessary in an amount of at least 0.30% in order to give strengthand ductility to steel. However, the strength of a steel having thecomposition defined in the present invention is highly influenced by Crand Mo rather than Mn. Therefore, it is not necessary to use a largeamount of Mn in order to increase the strength of the steel of thepresent invention. When the Mn content exceeds 0.80, the weldhardenability of the steel is increased. Therefore, the Mn content islimited to 0.30-0.80%.

Cr and Mo are important elements for improving the E.C. resistance ofsteel against wet steam at high flow rate. In order to obtain a steelhaving a high E.C. resistance to be used in a feed-water heater fornuclear power generation plant and the like, it is necessary that asteel having the composition of the present invention contains at least0.70% of Cr and at least 0.40% of Mo. The larger amount of Cr and Mo ismore effective for improving the E.C. resistance. However, the use ofmore than 1.60% of Cr or more than 0.70% of Mo has a risk ofdeteriorating the formability and weldability of steel. Accordingly, thecontent of Cr is limited to 0.70-1.60%, and that of Mo is limited to0.40-0.70%. Cr serves to form a high-strength microstructure as anelement for improving the hardenability and further has a solidsolution-strengthening action. Mo is a precipitation-hardening typeelement, and its fine carbides are dispersedly precipitated during thetempering treatment. Therefore, both Cr and Mo serve to improve thestrength of steel and the above described effect can be properlydeveloped within the above described limited range of each element.

As described above, the limitation of the contents of the basic elementsof the present invention, that is, the contents of C, Si, Mn, Cr and Mo,is based on the same reason in the first to eighth aspects of thepresent invention, in the ninth to twelth aspects (preferred embodimentsof the steel of the present invention), wherein the C content isstrictly limited; in the thirteenth to eighteenth aspects, wherein thesteel is used in a specifically limited apparatus; and in the nineteenthaspect, wherein the C content is strictly limited, and steel is used ina specifically limited apparatus.

In the second, fifth, sixth, eighth, fifteenth, sixteenth and eighteenthaspects of the present invention, not more than 0.5% of Cu or not morethan 0.5% of Ni, or both of them are contained in a steel. The reason isthat these elements can further improve the E.C. resistance of the steelagainst wet steam at high flow rate. Although these elements exhibittheir effect when they are used alone, the effect is more significantwhen they are used in combination. The larger amounts of Cu and Ni aremore preferable for improving the E.C. resistance of steel. However,when the amount of each of Cu and Ni exceeds 0.5%, the weldability ofsteel is noticeably decreased. Therefore, the upper limit of the contentof each of Cu and Ni is limited to 0.5%. Moreover, Cu or Ni itself has asolid solution-strengthening action and improves the hardenability ofsteel, and therefore the strength of steel is improved by adding Cu andNi singly or in combination to the steel. As described above, since thestrength of steel can be improved by the use of Cu and Ni it is possibleto decrease the C content by using Cu or Ni without deteriorating thestength of steel, and further the use of Cu or Ni serves to improve theE.C. resistance of steel. That is, the use of not more than 0.5% of Cuor not more than 0.5% of Ni not only improves the E.C. resistance ofsteel, but also serves to improve the strength of steel. Due to thisstrength-improving action, the C content in steel can be decreased.Therefore, the use of Cu or Ni is very effective for improving the E.C.resistance of steel in this point also.

B is an element capable of improving the hardenability of steel, and isoccasionally used for improving the stength of steel. Thestrength-improving action of B makes possible to decrease the C contentin a steel, and the presence of B in a steel serves to improve the E.C.resistance of the steel. The effect of B appears when the B content in asteel is not more than 0.005%. When the B content in a steel exceeds0.005%, the steel is very poor in the weldability. Therefore, the Bcontent is limited to not more than 0.005% in the steel of the presentinvention.

In order to attain the object of the present invention, it is preferablethat the content of Cu in the steel of the present invention is at least0.02%, that of Ni is at least 0.02% and that of B is at least 0.0002%.

The reason why not more than 0.05% of Nb or not more than 0.08% of Vsingly or in combination is contained in the steel of the presentinvention is as follows. Both Nb and V have a precipitation-hardeningaction and serve to strengthen steel. Particularly, Nb serves tostrengthen steel through the formation of fine grains. Therefore, theuse of these elements serves to increase the strength of steel, andmakes possible to decrease the C content in steel without deterioratingthe strength of the steel, and further acts to decrease the weldhardenability and weld crack sensitivity of the steel. However, when theamount of Nb exceeds 0.05% or that of V exceeds 0.08%, the cracksensitivity of the welded joint during stress-relief annealing isincreased and the toughness of the heat affected zone by the welding isdeteriorated. Therefore, the content of Nb is limited to not more than0.05%, and that of V is limited to not more than 0.08%. It is preferablethat the content of each of Nb and V is at least 0.005%.

Further, at least one of Al, Ti and Zr is contained in the steel of thepresent invention in an amount of 0.005-0.08% of each element. Thereason is as follows. Al, Ti and Zr are formed into fine particles ofAlN, TiN and ZrN respectively, and the fine particles serve to improvethe toughness of steel by refining grains. The effect of these elementsappears distinctly in an amount of at least 0.005%, and increasesremarkably corresponding to the increase of the amount of theseelements. However, the effect is saturated in an amount of about 0.08%.Therefore, the content of each of Al, Ti and Zr is limited to0.005-0.08%.

In the steel of the above described preferred embodiments of the presentinvention, the content of C is limited to 0.02-0.13%, and at the sametime the content of both Cu and Ni are limited to 0.16-0.30%. The reasonis as follows. It is preferable that Cu or Ni is contained in a steel inan amount of at least 0.16% in order to improve the E.C. resistance ofthe steel. Higher content of Cu or Ni is more effective. However, theuse of a smaller amount of Cu or Ni is rather preferable with respect tothe weld crack sensitivity of steel, and it is desirable to use not norethan 0.30% of each of Cu and Ni. Therefore, it is preferable that thesteel of the present invention contains C in an amount of not more than0.13% and at least one of Cu and Ni in an amount of 0.16-0.30% in eachelement.

The steel of the present invention may contain incidental impurities inan amount contained during the ordinary steel making process. That is, Sand P act to enhance the hot cracking sensitivity at the welded partsand therefore it is necessary that the content of each of S and P islimited to not more than 0.025%, which is the amount within the rangecontained during the ordinary steel making process. While, N acts tomake crystal grains into a fine size in the presence of Al and serves toimprove the toughness of steel. Therefore, N is effective when the Ncontent in steel is 0.0020-0.0150% which is the amount within the rangecontained during the ordinary steel making process. However, when the Ncontent exceeds 0.0150%, the property of the steel ingot is poor due tothe formation of blow holes and other reason, and further theweldability of the steel is poor. Therefore, the N content should belimited to 0.0020-0.0150%.

The steel having the above described composition exhibits the abovedescribed excellent E.C. resistance, weldability, strength, toughnessand the like when the steel is used under wet steam. Therefore, thesteel is very valuable and has a high commercial merit when the steel isused in the field which requires the above described properties ofsteel. In other words, the present invention exhibits remarkablyexcellent effect in the quality of steel and further exhibits remarkablyexcellent commercial merit, only when the steel is used in the fieldwhich requires the above described properties of steel.

The composition of the steel of the present invention, the use thereofand the like have been hereinbefore explaned. The steel of the presentinvention is produced in the following method. That is, a molten steelhaving the above defined composition is produced and then subjected to arolling or forging by a conventional method, and the rolled steel orforged steel is subjected to a normalizing followed by a tempering, orto an annealing, whereby an aimed steel is produced. In the presentinvention, the heat treatment is limited to the above described twokinds of treatments.

The term "normalizing" means a treatment, wherein a steel is heated upto a temperature of not lower than the Ac₃ point and then cooled in air(for example, a steel plate having a thickness of less than 100 mm ismerely cooled in air, and a steel plate having a very large thickness ofnot less than 100 mm is cooled in air or is acceleratedly cooled). Theterm "tempering" means a treatment, wherein a steel is heated up to atemperature of not higher than the Ac₁ point and then cooled in air. Theterm "annealing" means a treatment, wherein a steel is heated up to atemperature of not lower than the Ac₃ point and then slowly cooled. Thenormalized and tempered steel has generally ferrite-pearlitemicrostructure, and sometimes contains bainite. The annealed steel hasgenerally ferrite-pearlite microstructure.

As a typical embodiment of the apparatus to be used under wet steam,there is known a feed-water heater for nuclear power generation plant.An explanation will be made with respect to the use of the steel of thepresent invention in the feed-water heater. It is a very importantproperty of the steel of the present invention that, when it is intendedto use the steel as a steel for feed-water heater, "annealing" can beapplied to the steel contrary to the conventional heat treatment,wherein "annealing" has never been used. Therefore, the steel of presentinvention has a very excellent merit as described hereinafter.

That is, an annealed steel is less sensitive for heat cycles, such asstress-relief annealing after welding and the like, and is smaller inthe variation of microstructure and mechanical property than anormalized and tempered steel. Accordingly, when a considerably largeamount of variation of temperature is forecast as in the case of, forexample, a stress-relief annealing of a large-size size weldedstructure, it is preferable to use an annealed steel rather than anormalized and tempered steel in order to keep the quality of the partsof the structure uniform as possible. In spite of such merit of annealedsteel, only a normalized and tempered steel has higherto been used inthe feed-water heater for nuclear power generation plant and annealedsteel has never hitherto been used in the heater. This is mainly due tothe following reason. It has been considered that the annealed steel islower in the strength and is noticeably lower in the E.C. resistancethan the normalized and tempered steel. However, the inventors have madevarious investigations based on a technical idea entirely different fromthe conventional fixed idea, and ascertained that, according to thepresent invention, a steel having a low C content and high weldabilitycan be produced; that a steel having the composition according to thepresent invention has a very high E.C. resistance even when the steel issubjected to an annealing as a heat treatment; and further that thesteel has proper strength and toughness to be used as a steel forfeed-water heater for nuclear power generation plant.

The following examples are given in order to more clarify theconstruction of the invention and concretely show the particular effectsthereof.

The chemical compositions of steel specimens are shown in the followingTables 2 and 3.

In these tables, all specimens other than specimen Nos. 4-3, 4-4, 6-12,16-10, 16-11 and 16-12 are steel satisfying the chemical compositionsdefined in the respective claim of the invention. While, the specimenNos. 4-3 and 4-4 as a comparative example are commercially availablehigh carbon 11/4Cr-1/2 Mo steels usually used in a feed-water heater fornuclear power generation as a typical example of equipments used underwet steam in Japan. In this conventional steel, C content is 0.16-0.17%,which is higher than the upper limit of 0.14% defined in the invention.

Moreover, the specimen Nos. 6-12 and 16-10 are so-called comparativesteels showing that the erosion-corrosion resistance is insufficientlyimproved when the C content is outside the defined range of theinvention, and the specimen Nos. 6-11, 16-11 and 16-12 are comparativesteels using in the weldability test.

All of these steels other than the commercially available steels of thespecimen Nos. 4-3 and 4-4 are steel plates, each being obtained by hotrolling 100 kg of a steel ingot, which is produced by iusing asmall-size high frequency induction heating vacuum furnace, into a steelplate of 30 mm thick by means of a small-size rolling mill. After therolling, the steel plate is subjected to an annealing treatment as wellas a normalizing-temperature treatment usually applied to steel platesused in the feed-water heater for nuclear power generation.

The normalizing treatment is carried out by retaining steel plate in aheating furnace at 930° C. for 1 hour and then cooling it in air. Thecondition of tempering treatment is 660° C.×1 hr. Further, the annealingtreatment is carried out by retaining the steel plate in a heatingfurnace at 930° C. for 1 hour and then slow cooling it at an averagecooling rate of 0.8° C./ min over a range of 800° C. to 400° C.

Since the steel plate is always subjected to a stress relieve annealingtreatment after the welding assembling, the normalized-tempered plateand annealed plate are further subjected to the stress relieve annealingtreatment at 645° C. for 1 hour prior to the testing. However, thespecimens used for the weldability test are not subjected to the stressrelieve annealing treatment.

In order to prove that the steels according to the invention have properstrength and toughness as a steel plate used in the feed-water heaterfor nuclear power generation, tensile tests at room temperature and 250°C. and V-Charpy impact test are first made with respect to thesespecimens. Moreover, the term "proper strength" used herein means thatthe tensile strength is more than about 40 kgf/mm² at room temperatureand also it is desired to maintain the value of more than 40 kgf/mm²even at 250° C. considering the heating temperature of the feed-waterheaater of about 150° C., while the term "proper toughness" used hereinmeans that the absorbed energy at 0° C. is more than about 2.1 kg.mconsidering the use conditions.

In the tensile test is used a bar specimen having a diameter of 6 mm, aparallel part length of 30 mm and a guage length of 25 mm, while in theV-Charpy impact test is used a specimen provided with a V-notch of 2 mm.

                                      TABLE 2                                     __________________________________________________________________________    (weight %)                                                                    Speci-                                                                        men                                                                           No.                C  Si Mn P  S  Cu Ni Cr Mo V    Al                         __________________________________________________________________________    1   Composition of claims 1 and 13                                                               0.11                                                                             0.60                                                                             0.51                                                                             0.014                                                                            0.003                                                                            -- -- 1.02                                                                             0.57                                                                             --   --                         2   Composition of claims 2 and 9                                                                0.11                                                                             0.60                                                                             0.51                                                                             0.015                                                                            0.004                                                                            0.20                                                                             0.20                                                                             1.42                                                                             0.57                                                                             --   --                         3   Composition of claim 3                                                                       0.11                                                                             0.64                                                                             0.55                                                                             0.013                                                                            0.006                                                                            -- -- 1.38                                                                             0.56                                                                             0.016                                                                              --                         4-1 Composition of claims 4 and 14                                                               0.10                                                                             0.70                                                                             0.61                                                                             0.012                                                                            0.007                                                                            -- -- 1.46                                                                             0.58                                                                             --   0.016                      4-2 Composition of claims 4 and 14                                                               0.13                                                                             0.70                                                                             0.62                                                                             0.014                                                                            0.008                                                                            -- -- 1.40                                                                             0.55                                                                             --   0.018                      4-3 Comparative steel                                                                            0.17                                                                             0.68                                                                             0.62                                                                             0.013                                                                            0.008                                                                            -- -- 1.32                                                                             0.51                                                                             --   --                         4-4 Comparative steel                                                                            0.16                                                                             0.61                                                                             0.51                                                                             0.014                                                                            0.005                                                                            -- -- 1.44                                                                             0.57                                                                             --   --                         5   Composition of claims 5 and 10                                                               0.13                                                                             0.64                                                                             0.55                                                                             0.012                                                                            0.007                                                                            -- 0.22                                                                             1.44                                                                             0.53                                                                             0.025                                                                              --                         6-1 Composition of claims 6 and 15                                                               0.10                                                                             0.65                                                                             0.60                                                                             0.012                                                                            0.008                                                                            0.11                                                                             0.11                                                                             1.42                                                                             0.57                                                                             --   0.017                      6-2 Composition of claims 6 and 15                                                               0.14                                                                             0.69                                                                             0.61                                                                             0.013                                                                            0.007                                                                            0.20                                                                             0.20                                                                             1.43                                                                             0.56                                                                             --   0.014                      6-3 Composition of claims 6, 11,                                                                 0.12                                                                             0.70                                                                             0.62                                                                             0.013                                                                            0.007                                                                            0.20                                                                             0.19                                                                             1.44                                                                             0.57                                                                             --   0.014                          15 and 19                                                                 6-4 Composition of claims 6, 11,                                                                 0.13                                                                             0.69                                                                             0.61                                                                             0.012                                                                            0.008                                                                            0.19                                                                             0.21                                                                             1.11                                                                             0.56                                                                             --   0.014                          15 and 19                                                                 6-5 Composition of claims 6 and 15                                                               0.14                                                                             0.70                                                                             0.61                                                                             0.011                                                                            0.008                                                                            0.20                                                                             0.20                                                                             1.09                                                                             0.57                                                                             --   0.015                      6-6 Composition of claims 6, 11,                                                                 0.10                                                                             0.69                                                                             0.61                                                                             0.013                                                                            0.007                                                                            0.20                                                                             0.21                                                                             1.46                                                                             0.56                                                                             --   0.015                          15 and 19                                                                 6-7 Composition of claims 6, 11,                                                                 0.09                                                                             0.69                                                                             0.61                                                                             0.013                                                                            0.007                                                                            0.20                                                                             0.20                                                                             1.46                                                                             0.56                                                                             --   0.016                          15 and 19                                                                 6-8 Composition of claims 6 and 15                                                               0.12                                                                             0.69                                                                             0.62                                                                             0.013                                                                            0.007                                                                            0.20                                                                             0.50                                                                             1.43                                                                             0.56                                                                             --   0.017                      6-9 Composition of claims 6 and 15                                                               0.07                                                                             0.65                                                                             0.60                                                                             0.013                                                                            0.008                                                                            0.35                                                                             0.35                                                                             1.43                                                                             0.55                                                                             --   0.014                      6-10                                                                              Composition of claims 6, 11,                                                                 0.07                                                                             0.69                                                                             0.61                                                                             0.012                                                                            0.007                                                                            0.20                                                                             0.20                                                                             1.44                                                                             0.56                                                                             --   0.017                          15 and 19                                                                 6-11                                                                              Comparative steel                                                                            0.15                                                                             0.70                                                                             0.61                                                                             0.012                                                                            0.008                                                                            0.20                                                                             0.50                                                                             1.08                                                                             0.57                                                                             --   0.016                      6-12                                                                              Comparative steel                                                                            0.16                                                                             0.56                                                                             0.55                                                                             0.004                                                                            0.006                                                                            0.14                                                                             0.14                                                                             1.37                                                                             0.53                                                                             --   0.023                      7   Composition of claim 7                                                                       0.13                                                                             0.64                                                                             0.61                                                                             0.012                                                                            0.006                                                                            -- -- 1.41                                                                             0.57                                                                             0.047                                                                              0.014                      8   Composition of claims 8, 12,                                                                 0.11                                                                             0.69                                                                             0.61                                                                             0.012                                                                            0.007                                                                            0.20                                                                             0.21                                                                             1.43                                                                             0.55                                                                             0.034                                                                              0.018                          16 and 19                                                                 9   Composition of claims 6 and 15                                                               0.12                                                                             0.63                                                                             0.61                                                                             0.012                                                                            0.005                                                                            -- -- 1.40                                                                             0.57                                                                             B: 0.0013                                                                          0.060                      __________________________________________________________________________

                                      TABLE 3                                     __________________________________________________________________________    (weight %)                                                                    Speci-                                                                        men                                                                           No.                C  Si Mn P  S  Cu Ni Cr Mo V    Al                         __________________________________________________________________________    11  Composition of claims 1 and 13                                                               0.13                                                                             0.20                                                                             0.60                                                                             0.014                                                                            0.004                                                                            -- -- 0.81                                                                             0.55                                                                             --   --                         12  Composition of claims 2 and 9                                                                0.12                                                                             0.25                                                                             0.62                                                                             0.013                                                                            0.007                                                                            0.18                                                                             0.22                                                                             0.98                                                                             0.55                                                                             --   --                         13  Composition of claim 3                                                                       0.12                                                                             0.23                                                                             0.58                                                                             0.014                                                                            0.006                                                                            -- -- 1.05                                                                             0.54                                                                             0.026                                                                              --                         14-1                                                                              Composition of claims 4, 14                                                                  0.10                                                                             0.25                                                                             0.61                                                                             0.012                                                                            0.008                                                                            -- -- 0.10                                                                             0.53                                                                             --   0.016                          and 17                                                                    14-2                                                                              Composition of claims 4, 14                                                                  0.06                                                                             0.25                                                                             0.62                                                                             0.012                                                                            0.008                                                                            -- -- 1.10                                                                             0.53                                                                             --   0.015                          and 17                                                                    15  Composition of claims 5 and 10                                                               0.12                                                                             0.28                                                                             0.62                                                                             0.014                                                                            0.008                                                                            -- 0.22                                                                             1.00                                                                             0.53                                                                             0.020                                                                              --                         16-1                                                                              Composition of claims 6, 15                                                                  0.13                                                                             0.26                                                                             0.60                                                                             0.014                                                                            0.008                                                                            0.10                                                                             0.12                                                                             1.12                                                                             0.54                                                                             --   0.020                          and 18                                                                    16-2                                                                              Composition of claims 6, 11,                                                                 0.13                                                                             0.25                                                                             0.61                                                                             0.013                                                                            0.008                                                                            0.19                                                                             0.20                                                                             1.11                                                                             0.54                                                                             --   0.016                          15, 18 and 19                                                             16-3                                                                              Composition of claims 6, 11,                                                                 0.13                                                                             0.25                                                                             0.62                                                                             0.013                                                                            0.007                                                                            0.20                                                                             0.20                                                                             1.11                                                                             0.54                                                                             --   0.017                          15, 18 and 19                                                             16-4                                                                              Composition of claims 6, 11,                                                                 0.10                                                                             0.25                                                                             0.61                                                                             0.011                                                                            0.008                                                                            0.20                                                                             0.21                                                                             1.11                                                                             0.53                                                                             --   0.016                          15, 18 and 19                                                             16-5                                                                              Composition of claims 6, 11,                                                                 0.10                                                                             0.25                                                                             0.61                                                                             0.012                                                                            0.007                                                                            0.20                                                                             0.20                                                                             1.10                                                                             0.53                                                                             --   0.016                          15, 18 and 19                                                             16-6                                                                              Composition of claims 6, 11,                                                                 0.11                                                                             0.25                                                                             0.62                                                                             0.012                                                                            0.008                                                                            -- 0.20                                                                             1.09                                                                             0.53                                                                             --   0.015                          15, 18 and 19                                                             16-7                                                                              Composition of claims 6, 15                                                                  0.12                                                                             0.26                                                                             0.59                                                                             0.009                                                                            0.007                                                                            0.20                                                                             0.50                                                                             1.12                                                                             0.53                                                                             --   0.015                          and 18                                                                    16-8                                                                              Composition of claims 6, 11,                                                                 0.08                                                                             0.25                                                                             0.62                                                                             0.012                                                                            0.006                                                                            0.20                                                                             0.21                                                                             1.10                                                                             0.53                                                                             --   0.016                          15, 18 and 19                                                             16-9                                                                              Composition of claims 6, 15                                                                  0.08                                                                             0.28                                                                             0.60                                                                             0.014                                                                            0.008                                                                            0.35                                                                             0.35                                                                             1.08                                                                             0.56                                                                             --   0.022                          and 18                                                                    16-10                                                                             Comparative steel                                                                            0.15                                                                             0.25                                                                             0.57                                                                             0.005                                                                            0.002                                                                            0.04                                                                             0.21                                                                             1.07                                                                             0.56                                                                             --   0.014                      16-11                                                                             Comparative steel                                                                            0.15                                                                             0.25                                                                             0.62                                                                             0.014                                                                            0.006                                                                            0.20                                                                             -- 1.05                                                                             0.54                                                                             --   0.016                      16-12                                                                             Comparative steel                                                                            0.15                                                                             0.26                                                                             0.60                                                                             0.010                                                                            0.006                                                                            0.42                                                                             0.32                                                                             1.04                                                                             0.54                                                                             --   0.016                      17  Composition of claim 7                                                                       0.13                                                                             0.40                                                                             0.62                                                                             0.016                                                                            0.009                                                                            -- -- 1.08                                                                             0.55                                                                             0.025                                                                              0.022                      18  Composition of claims 8, 12                                                                  0.11                                                                             0.26                                                                             0.62                                                                             0.012                                                                            0.008                                                                            0.20                                                                             0.20                                                                             1.09                                                                             0.54                                                                             0.034                                                                              0.017                          and 16                                                                    10  Composition of claims 6, 15                                                                  0.10                                                                             0.25                                                                             0.60                                                                             0.010                                                                            0.004                                                                            -- -- 0.99                                                                             0.56                                                                             B: 0.0012                                                                          0.066                          and 18                                                                    __________________________________________________________________________

The improved effect of weldability aiming at the invention is examinedwith respect to the typical steel specimens to be tested. In theweldability test, Y-groove restraint cracking test method according toJIS Z-3158 is used to measure a preheating temperature for prevention ofweld crack.

Then, the test for erosion-corrosion resistance by spouting hightemperature water at a high speed is made with respect to the typicalsteel specimens to be tested. In this case, the test specimen is a discplate having a diameter of 9 mm and a thickness of 10 mm provided with acruciform groove having a width of 3 mm and a depth of 5 mm as shown inFIG. 2. The weight loss of the test specimen by erosion-corrosion ismeasured by spouting a high temperature and high purity water simulatedas a reactor water containing an oxygen of not more thn 5 ppb and heatedat 150° C. to the crossed portion of the groove through a nozzle of 1 mmdiameter located above the groove at a high streaming rate of 10 m/secfor 500 hours.

The thus obtained test results are shown in the following tables 4 and 5and FIGS. 3-6.

                                      TABLE 4                                     __________________________________________________________________________                                              V-Charpy                                                                            Y-groove                                        Tensile test at                                                                             Tensile test                                                                            impact                                                                              cracking                                                                              Test for                                room temperature                                                                            at 250° C.                                                                       test  Preheating                                                                            erosion-                                Yield     Elon-                                                                             Yield     Absorbed                                                                            temperature                                                                           corrosion             Speci-       Heat point                                                                             Tensile                                                                             ga- point                                                                             Tensile                                                                             energy                                                                              for prevention                                                                        resistance            men          treat-                                                                             (kgf/                                                                             strength                                                                            tion                                                                              (kgf/                                                                             strength                                                                            at 0° C.                                                                     of weld                                                                               Weight loss           No.          ment*                                                                              mm.sup.2)                                                                         (kgf/mm.sup.2)                                                                      (%) mm.sup.2)                                                                         (kgf/mm.sup.2)                                                                      ((kgf · m)                                                                 (°C.)                                                                          (mg/500               __________________________________________________________________________                                                            h)                    1   Composition of                                                                         N-T-SR                                                                             30.9                                                                              47.3  35  23.3                                                                              42.0  13.5  100     5.7                       claims 1 and 13                                                           2   Composition of                                                                         N-T-SR                                                                             33.5                                                                              51.6  32  25.0                                                                              45.2  11.2  100     5.2                       claims 2 and 9                                                            3   Composition of                                                                         N-T-SR                                                                             34.8                                                                              52.5  30  27.2                                                                              47.0  8.2   100     5.6                       claim 3                                                                   4-1 Composition of                                                                         A-SR 30.9                                                                              49.1  40  24.2                                                                              44.4  18.0  75      5.6                       claims 4 and 14                                                           4-2 Composition of                                                                         A-SR 31.5                                                                              51.2  38  25.0                                                                              46.6  20.2  --      --                        claims 4 and 14                                                           4-3 Comparative steel                                                                      N-T  36.6                                                                              55.2  34  27.4                                                                              48.0  8.2   150     6.2                   4-4 Comparative steel                                                                      N-T  36.0                                                                              54.6  35  27.2                                                                              47.6  7.4   200     --                    5   Composition of                                                                         N-T-SR                                                                             38.2                                                                              56.6  32  30.6                                                                              51.6  7.5   --      --                        claims 5 and 10                                                           6-1 Composition of                                                                         A-SR 31.2                                                                              50.2  33  28.2                                                                              48.0  20.5  --      5.4                       claims 6 and 15                                                           6-2 Composition of                                                                         N-T-SR                                                                             38.0                                                                              59.4  29  28.2                                                                              52.5  15.0  --      5.2                       claims 6 and 15                                                           6-2 Composition of                                                                         A-SR 30.9                                                                              53.2  36  24.3                                                                              48.2  8.4   --      --                        claims 6 and 15                                                           6-3 Composition of                                                                         N-T  --  --    --  --  --    --    100     --                        claims 6, 11, 15                                                              and 19                                                                    6-4 Composition of                                                                         N-T-SR                                                                             37.1                                                                              55.4  31  28.1                                                                              48.8  17.5  --      --                        claims 6, 11, 15                                                              and 19                                                                    6-4 Composition of                                                                         A-SR 33.0                                                                              52.3  35  26.0                                                                              47.8  11.1  --      --                        claims 6, 11, 15                                                              and 19                                                                    6-5 Composition of                                                                         N-T  --  --    --  --  --    --    125     --                        claims 6 and 15                                                           6-6 Composition of                                                                         N-T-SR                                                                             34.0                                                                              54.7  35  25.3                                                                              48.1  20.7  --      --                        claims 6, 11, 15                                                              and 19                                                                    6-6 Composition of                                                                         A-SR 33.1                                                                              51.4  35  26.5                                                                              46.0  17.3  --      5.0                       claims 6, 11, 15                                                              and 19                                                                    6-7 Composition of                                                                         N-T  --  --    --  --  --    --    100     --                        claims 6, 11, 15                                                              and 19                                                                    6-8 Composition of                                                                         N-T-SR                                                                             38.1                                                                              59.6  30  31.9                                                                              52.6  14.0  125     --                        claims 6 and 15                                                           6-9 Composition of                                                                         N-T-SR                                                                             34.0                                                                              55.2  32  28.0                                                                              49.4  18.4  100     --                        claims 6 and 15                                                           6-10                                                                              Composition of                                                                         A-SR 31.1                                                                              47.7  40  24.8                                                                              43.2  27.0  75      --                        claims 6, 11, 15                                                              and 19                                                                    6-11                                                                              Comparative steel                                                                      N-T-SR                                                                             40.9                                                                              61.9  28  34.3                                                                              54.8  12.8  150     --                    6-12                                                                              Comparative steel                                                                      N-T  38.2                                                                              56.8  32  --  --    11.0  --      6.7                   6-12                                                                              Comparative steel                                                                      A-SR 31.5                                                                              52.1  33  --  --    4.2   --      6.8                   7   Composition of                                                                         N-T-SR                                                                             40.3                                                                              62.6  25  36.0                                                                              54.2  15.8  --      --                        claim 7                                                                   8   Composition of                                                                         N-T-SR                                                                             37.0                                                                              60.4  28  32.9                                                                              53.4  10.4  --      --                        claims 8, 12, 16                                                              and 19                                                                    9   Composition of                                                                         N-T-SR                                                                             46.2                                                                              60.5  23  40.0                                                                              53.5  19.5  125     5.6                       claims 6 and 15                                                           __________________________________________________________________________     *N--normalizing, T--tempering, A--annealing, SR--stress relieve annealing

                                      TABLE 5                                     __________________________________________________________________________                                              V-Charpy                                                                            Y-groove                                        Tensile test at                                                                             Tensile test                                                                            impact                                                                              cracking                                                                              Test for                                room temperature                                                                            at 250° C.                                                                       test  Preheating                                                                            erosion-                                Yield     Elon-                                                                             Yield     Absorbed                                                                            temperature                                                                           corrosion             Speci-       Heat point                                                                             Tensile                                                                             ga- point                                                                             Tensile                                                                             energy                                                                              for prevention                                                                        resistance            men          treat-                                                                             (kgf/                                                                             strength                                                                            tion                                                                              (kgf/                                                                             strength                                                                            at 0° C.                                                                     of weld                                                                               Weight loss           No.          ment mm.sup.2)                                                                         (kgf/mm.sup.2)                                                                      (%) mm.sup.2)                                                                         (kgf/mm.sup.2)                                                                      (kgf · m)                                                                  (°C.)                                                                          (mg/500               __________________________________________________________________________                                                            h)                    11  Composition of                                                                         N-T-SR                                                                             29.0                                                                              43.6  38  20.5                                                                              38.5  12.0  100     5.0                       claims 1 and 13                                                           12  Composition of                                                                         N-T-SR                                                                             34.0                                                                              49.8  36  25.6                                                                              39.8  8.8   100     4.3                       claims 2 and 9                                                            13  Composition of                                                                         N-T-SR                                                                             36.2                                                                              51.2  36  28.0                                                                              43.2  11.8  100     4.7                       claim 3                                                                   14-1                                                                              Composition of                                                                         A-SR 28.3                                                                              43.3  41  21.0                                                                              40.9  28.5  75      4.0                       claims 4, 14 and                                                              17                                                                        14-2                                                                              Composition of                                                                         A-SR 25.4                                                                              40.4  44  17.3                                                                              37.0  33.8  --      --                        claims 4, 14 and                                                              17                                                                        15  Composition of                                                                         N-T-SR                                                                             36.0                                                                              51.8  35  27.8                                                                              46.0  12.6  --      --                        claims 5 and 10                                                           16-1                                                                              Composition of                                                                         N-T-SR                                                                             34.5                                                                              51.0  38  24.5                                                                              45.0  25.2  --      4.5                       claims 6, 15 and                                                              18                                                                        16-2                                                                              Composition of                                                                         N-T-SR                                                                             35.5                                                                              51.4  37  25.3                                                                              45.7  24.7  --      3.4                       claims 6, 11, 15,                                                             18 and 19                                                                 16-2                                                                              Composition of                                                                         A-SR 30.3                                                                              48.0  38  23.1                                                                              44.9  14.3  --      --                        claims 6, 11, 15,                                                             18 and 19                                                                 16-3                                                                              Composition of                                                                         N-T  --  --    --  --  --    --    100     --                        claims 6, 11, 15,                                                             18 and 19                                                                 16-4                                                                              Composition of                                                                         N-T-SR                                                                             33.2                                                                              47.9  40  25.0                                                                              41.9  34.0  --      --                        claims 6, 11, 15,                                                             18 and 19                                                                 16-4                                                                              Composition of                                                                         A-SR 29.3                                                                              45.4  38  22.8                                                                              42.3  25.2  --      3.9                       claims 6, 11, 15,                                                             18 and 19                                                                 16-5                                                                              Composition of                                                                         N-T  --  --    --  --  --    --    5.0     --                        claims 6, 11, 15,                                                             18 and 19                                                                 16-6                                                                              Composition of                                                                         A-SR 29.3                                                                              44.9  40  22.0                                                                              41.7  24.9  --      3.2                       claims 6, 11, 15,                                                             18 and 19                                                                 16-7                                                                              Composition of                                                                         N-T-SR                                                                             35.6                                                                              50.8  36  27.2                                                                              44.5  29.8  125     --                        claims 6, 15 and                                                              18                                                                        16-8                                                                              Composition of                                                                         A-SR 28.5                                                                              42.8  40  20.3                                                                              40.2  32.2  75      --                        claims 6, 11, 15,                                                             18 and 19                                                                 16-9                                                                              Composition of                                                                         N-T  --  --    --  --  --    --    100     --                        claims 6, 15 and                                                              18                                                                        16-10                                                                             Comparative steel                                                                      N-T  36.5                                                                              52.5  36  --  --    32.7  --      6.0                   16-10                                                                             Comparative steel                                                                      A-SR 30.8                                                                              48.1  39  --  --    11.7  --      3.9                   16-11                                                                             Comparative steel                                                                      N-T  36.6                                                                              51.8  36  --  --    26.6  175     --                    16-12                                                                             Comparative steel                                                                      A-SR 32.6                                                                              50.0  38  --  --    10.8  150     --                    17  Composition of                                                                         N-T-SR                                                                             37.4                                                                              52.6  34  29.0                                                                              44.2  18.2  --      --                        claim 7                                                                   18  Composition of                                                                         N-T-SR                                                                             36.8                                                                              52.4  34  28.0                                                                              46.9  27.1  --      --                        claims 8, 12 and                                                              16                                                                        10  Composition of                                                                         N-T-SR                                                                             44.7                                                                              56.0  28  --  --    3.6   125     3.8                       claims 6, 15 and                                                              18                                                                        __________________________________________________________________________

FIG. 3 shows the relationships of the tensile strength at roomtemperature and the preheating temperature for the prevention of weldcrack in the welding to the carbon content in the steel specimenssatisfying the chemical compositions as defined in the claims and thecomparative steel specimens. FIG. 4 shows the same relationships as inFIG. 3 when the silicon content is limited to not more than 0.45%. InFIGS. 3 and 4, symbol ○ represents normalized-tempered steel specimenscontaining no copper and nickel, symbol Δ represents normalized-temperedsteel specimens containing copper and nickel, symbol • representsannealed steel specimens containing no copper and nickel, and symbol οrepresents annealed steel specimens containing copper and nickel.

From the data of Tables 4 and 5, it is obvious that all of the steelspecimens according to the invention exhibit sufficiently high tensilestrengths at room temperature and 250° C. and toughness suitable for usein the aforementioned application and also there is no problem relatingto the strength even when the carbon content is reduced in order toimprove the erosion-corrosion resistance and weldability. Further, it isa novel knowledge that even when the annealing treatment which hardlyincreases the strength is adopted instead of the normalizing-temperingtreatment usually applied to the steel for the feed-water heater, thecarbon content can be reduced considerably in view of the strength ascompared with the case of the comparative steel specimen Nos. 4-3 and 4-4. Particularly, it is apparent from the data of Table 5 that thedecrease of silicon content somewhat lowers the tensile strength at 250°C. but does not change the other properties and particularly theerosion-corrosion resistance is improved.

Then, the relationship between the carbon content and the weld crackingsensitivity will be described with reference to FIG. 3. The preheatingtemperature for the prevention of weld crack in the comparative steelspecimens Nos. 4-3, 4-4 and 6-11, each having a carbon content exceedingthe upper limit of the invention is 150°-200° C. On the contrary,according to the invention, the preheating temperature can be lowered tonot higher than 125° C. by limiting the carbon content to not more than0.14% and can further be lowered to not higher than 100° C., by limitingthe carbon content to not more than 0.13% and each of the copper andnickel contents to not more than 0.30%.

As seen from the comparisons of the specimen No. 6-8 with the specimenNo. 6-3 and the specimen No. 6-9 with the specimen No. b 6-10, slightincrease in amounts of Cu and Ni largely exert upon the weld crackingsensitivity, which is quite contrary to the expectation under generaltechnical level in this type of the steel. That is, the preheatingtemperature for the prevention of weld crack can be lowered by 25° C. bylimiting each of the Cu and Ni contents to not more than 0.30% ascompared with the case of steels containing each of the Cu and Nicontents of from more than 0.30% to not more than 0.50%.

In order to prevent the weld crack, the comparative steel specimens arerequired to be preheated at a higher temperature of at least 150°-200°C., while the steels defined in claims 4 and 6 are sufficient to bepreheated to 125° C. at most. Particularly, the preheating temperatureof the steel belonging to claim 11 may be not higher than 100° C. Thatis, the weld working can considerably be improved in the steelsaccording to the invention.

Similarly, it can be seen from FIG. 4 that the steels defined in claims17 and 18 are sufficient to be preheated to 125° C. at most andparticularly the preheating temperature of not higher than 10° C. issufficient in the steels belonging to claim 19.

Next, the relationship of each of the carbon, copper and nickel contentsto the erosion-corrosion resistance will be described with reference toFIG. 5. From the comparison of the comparative steel specimen No. 4-3with the specimen No. 4-1 belonging to claim 4, it is apparent that thereduction of C content is very effective for the improvement of theerosion-corrosion resistance. Further, it is clear from the comparisonof the specimen No. 4-1 with the specimen Nos. 6-1, 6-6 and 6-2belonging to claim 6 that the addition of Cu and Ni are effective forthe improvement of this property and the larger the addition amountthereof, the higher the improvement effect. Moreover, it is obvious fromthe comparison No. 6-2 that it is necessary to limit the C content tonot more than 0.14% in order to develop the improved effect of suchproperty by adding slight amounts of Cu and Ni. From the above, it hasbeen confirmed that the erosion-corrosion resistance of this type ofCr-Mo steel can considerably be improved by the reduction of C content,i.e. by limiting the C content as a steel for the feed-water heater tonot more than 0.14% and also by adding slight amounts of Cu and Ni,preferably not less than 0.16% of each thereof.

Moreover, specimen No. 9 shown in Table 2 is a high toughness steelcontaining boron, which belongs to claim 6, and exhibits excellentweldability and erosion-corrosion resistance as seen from Table 4.

FIG. 6 shows the same relationship as in FIG. 5 when the Si content islimited to not more than 0.45%. As seen from FIG. 6, the moreimprovement of the erosion-corrosion resistance is achieved by reducingthe Si content to not more than 0.45%.

The erosion-corrosion resistance of Cr-containing low alloy steel isexamined using a corrosion testing apparatus with a high temperature andhigh pressure water shown in FIG. 7.

The corrosion testing apparatus comprises a pure water tank 31, adeaeration tank 32, cooling units 33, 34, a demineralizer 35, a surgetank 36, a preheater 37, a testing loop 38 and a sample chamber 39.

As the sample to be tested, use is made of carbon steel SS41, steel SB46containing about 0.5% of Cu, steel SB49M containing 0.5% of Mo, and lowcarbon-1 Cr-0.5Mo steel and low carbon-11/4Cr-0.5Mo steel according tothe invention as shown in the following Table 6.

                  TABLE 6                                                         ______________________________________                                        Kind of steel                                                                              C      Si      Mn   Cr    Mo   Cu                                ______________________________________                                        Carbon steel SS41                                                                          0.11   0.25    0.81 --    --   --                                Cu-containing                                                                              0.27   0.24    0.83 --    --   0.49                              steel SB46                                                                    Steel SB49M  0.31   0.27    0.83 --    --   --                                Low carbon-  0.14   0.35    0.45 1.01  0.51 --                                1Cr--0.5Mo steel                                                              Low carbon-  0.13   0.55    0.50 1.24  0.55 --                                11/4Cr--0.5Mo steel                                                           ______________________________________                                    

In the testing apparatus, a saturated water heater at about 150° C. iscircularly flowed to the sample in stead of the steam and waterdropflowing state as an erosive-corrosive atmosphere. Considering the flowrates of steam and waterdrop, the flow rate of saturated water is set at0.3 m/sec and 2 m/sec. The test results are shown in FIG. 8 in case ofthe flow rate of 0.3 m/sec and in FIG. 9 in case of the flow rate of 2m/sec. respectively.

As seen from the test results of FIGS. 8 and 9, the saturationphenomenon of weight loss is observed in the Cr-Mo steels according tothe invention. From this fact, it is ascertained that the chromiumelement is indispensable for the improvement of the erosion-corrosionresistance and that the steels according to the invention are veryexcellent in the erosion-corrosion resistance. Incidentally, whenindicating the test results of FIG. 8 according to the control law ofweight loss, the result as shown in the following Table 7 is obtained,from which it can be seen that the steels according to the inventionhave a fairly higher erosion-corrosion resistance as compared with theconventional carbon steel.

                  TABLE 7                                                         ______________________________________                                                   Weight loss                                                                             Control law of                                                                            Weight loss                                  Kind of steel                                                                            (mg/dm.sup.2)                                                                           weight loss (mm/30 years)                                ______________________________________                                        Carbon steel SS41                                                                        2,300     linear law  57.8                                         Cu-containing                                                                            940       linear law  23.7                                         steel SB46                                                                    Steel SB49M                                                                              900       parabolic law                                                                             1.67                                         Low carbon-                                                                              300       logarithmic 0.082                                        1Cr--0.5Mo steel     law                                                      ______________________________________                                    

FIG. 10 shows a result of corrosion test under wet steam similar to theabove mentioned corrosion test with a high temperature and high pressurewater. In this test, the errosive-corrosive atmosphere is a steam andwaterdrop flowing state, which is more close to the actual state insidethe feed-water heater than that of the aforementioned testing apparatus.

The result of FIG. 10 is very close to the result of the test using thehigh temperature and high pressure water and shows that the low carbon11/4Cr-0.5Mo steel according to the invention has an excellenterosion-corrosion resistance. Furthermore, the erosion-corrosionresistance of the steel according to the invention has been confirmed byperforming the corrosion test in the actual plant wherein the samesample as used in the high temperature and high pressure water test isused in a pipe for wet steam.

By applying the steel according to the invention containing 0.7-1.60% ofCr, 0.40-0.70% of Mo and not more than 0.14% of C to the body of thefeed-water heater, pipe and support plate used therefor, a fear ofcausing the erosion-corrosion in these parts can be avoided and afeed-water heater having a high reliability can be realized.

According to the invention, the preheating temperature in the weldingmay be 125° C. or lower, so that a fear of damaging the workingenvironment becomes less and also an energy required for the preheatingis low so as to reduce the energy cost. Furthermore, theerosion-corrosion resistance against wet steam of the steel according tothe invention is considerably excellent, so that the life of vesselsusing such steel can be prolonged. Particularly, conspicuous effects canbe achieved by applying the steel according to the invention to thefeed-water heater for nuclear power generation.

What is claimed is:
 1. In a feed-water heater comprising a water chamberprovided with an inlet and an outlet for the feed-water flowing throughthe heater, heat exchanging tubes in which the feed-water exchanged andflowed to the outlet of the heater, support plates supporting the heatexchanging tubes at a proper distance and a shell into which heatingfluids for heating the feed-water flowing in the heat exchanging tubesare introduced, the improvement comprising at least one of the heatexchanging tubes, the support plates and the shell is composed of a lowC-Cr-Mo steel subjected to normalizing and tempering treatment andconsisting of, in % by weight, 0.02-0.14% of C, not more than 0.90% ofSi, 0.30-0.80% of Mn, 0.70-1.60% of Cr, 0.40-0.70% of Mo and theremainder being substantially Fe, and having a ferrite-pearlitemicrostructure.
 2. In a feed-water heater comprising a water chamberprovided with an inlet and an outlet for the feed-water flowing throughthe heater, heat exchanging tubes in which the feed-water charged intothe heater through the inlet is heat exchanged and flowed to the outletof the heater, support plates supporting the heat exchanging tubes at aproper distance and a shell in which heating fluids for heating thefeed-water flowing in the heater exchanging tubes are introduced, theimprovement comprising at least one of the heat exchanging tubes, thesupport plates and the shell is composed of a low C-Cr-Mo steelsubjected to normalizing and tempering treatment and consisting of, in %by weight, 0.02-0.14% of C, not more than 0.90% of Si, 0.30-0.80% of Mn,0.70-1.60% of Cr, 0.40-0.70% of Mo, at least one of Al, Ti and Zr in anamount of 0.005-0.08% in each element, and the remainder beingsubstantially Fe, and having a ferrite-pearlite microstructure.
 3. In afeed-water heater comprising a water chamber provided with an inlet andan outlet for the feed-water flowing through the heater, heat exchangingtubes in which the feed-water charged into the heater through the inletis heat exchanged and flowed to the outlet of the heater, support platessupporting the heat exchanging tubes at a proper distance and a shellinto which heating fluids for heating the feed-water flowing in the heatexchanging tubes are introduced, the improvement comprising at least oneof the heat exchanging tubes, the support plates and the shell iscomposed of a low C-Cr-Mo steel subjected to normalizing and temperingtreatment and consisting of, in % by weight, 0.02-0.14% of C, not morethan 0.90% of Si, 0.30-0.80% of Mn, 0.70-1.60% of Cr, 0.40-0.70% of Mo,at least one of not more than 0.005% of B, at least one of Al, Ti and Zrin an amount of 0.005-0.08% in each element, and the remainder beingsubstantially Fe, and having a ferrite-pearlite microstructure.
 4. In afeed-water heater comprising a water chamber provided with an inlet andan outlet for the feed-water flowing through the heater, heat exchangingtubes in which the feed-water charged into the heater through the inletis heat exchanged and flowed to the outlet of the heater, support platessupporting the heat exchanging tubes at a proper distance and a shellinto which heating fluids for heating the feed-water flowing in the heatexchanging tubes are introduced, the improvement comprising at least oneof the heat exchanging tubes, the support plates and the shell iscomposed of a low C-Cr-Mo steel subjected to normalizing and temperingtreatment and consisting of, in % by weight, 0.02-0.14% of C, not morethan 0.90% of Si, 0.30-0.80% of Mn, 0.70-1.60% of Cr, 0.40-0.70% of Mo,at least one of not more than 0.5% of Cu, not more than 0.5% of Ni andnot more than 0.005% of B, at least one of not more than 0.05% of Nb andnot more than 0.08% of V, at least one of Al, Ti and Zr in an amount of0.005-0.08% in each element, and the remainder being substantially Fe,and having a ferrite-pearlite microstructure.
 5. In a feed-water heatercomprising a water chamber provided with an inlet and an outlet for thefeed-water flowing through the heater, heat exchanging tubes in whichthe feed-water charged into the heater through the inlet is heatexchanged and flowed to the outlet of the heater, support platessupporting the heat exchanging tubes at a proper distance and a shellinto which heating fluids for heating the feed-water flowing in the heatexchanging tubes are introduced, the improvement comprising at least oneof the heat exchanging tubes, the support plates and the shell iscomposed of a low C-Cr-Mo steel subjected to normalizing and temperingtreatment and consisting of, in % by weight, 0.02-0.14% of C, not morethan 0.45% of Si, 0.30-0.80% of Mn, 0.70-1.60% of Cr, 0.40-0.70% of Mo,at least one of Al, Ti and Zr in an amount of 0.005-0.08% in eachelement, and the remainder being substantially Fe, and having aferrite-pearlite microstructure.
 6. In a feed-water heater comprising awater chamber provided with an inlet and an outlet for the feed-waterflowing through the heater, heat exchanging tubes in which thefeed-water charged into the heater through the inlet is heat exchangedand flowed to the outlet of the heater, support plates supporting theheat exchanging tubes at a proper distance and a shell into whichheating exchanging tubes are introduced, the improvement comprising atleast one of the heat exchanging tubes, the support plates and the shellis composed of a low C-Cr-Mo steel subjected to normalizing andtempering treatment and consisting of, in % by weight, 0.02-0.14% of C,not more than 0.45% of Si, 0.30-0.80% of Mn, 0.70-1.60% of Cr,0.40-0.70% of Mo, at least one of not more than 0.5% of Cu, not morethan 0.5% of Ni and not more than 0.005% of B, at least one of Al, Tiand Zr in an amount of 0.005-0.08% in each element, and the remainderbeing substantially Fe, and having a ferrite-pearlite microstructure. 7.The feed-water heater as claimed in claim 3, 4 or 6, wherein C is notmore than 0.13%, Cu and Ni are 0.16-0.30%, in % by weight. .Iadd.
 8. Ina feed-water heater comprising a water chamber provided with an inletand an outlet for the feed-water flowing through the heater, heatexchanging tubes in which the feed-water charged into the heater throughthe inlet is heat exchanged and flowed to the outlet of the heater,support plates supporting the heat exchanging tubes at a proper distanceand a shell into which heating fluids for heating the feed-water flowingin the heat exchanging tubes are introduced, the improvement comprisingat least one of the heat exchanging tubes, the support plates and theshell is composed of a low C-Cr-Mo steel subjected to annealingtreatment and consisting of in % by weight, 0.02-0.14% of C, not morethan 0.90% of Si, 0.30-0.80% of Mn, 0.70-1.60% of Cr, 0.40-0.70% of Moand the remainder being substantially Fe, and having a ferrite-pearlitemicrostructure. .Iaddend. .Iadd.9. In a feed-water heater comprising awater chamber provided with an inlet and an outlet for the feed-waterflowing through the heater, heat exchanging tubes in which thefeed-water charged into the heater through the inlet is heat exchangedand flowed to the outlet of the heater, support plates supporting theheat exchanging tubes at a proper distance and a shell in which heatingfluids for heating the feed-water flowing in the heat exchanging tubesare introduced, the improvement comprising at least one of the heatexchanging tubes, the support plates and the shell is composed of a lowC-Cr-Mo steel subjected to annealing treatment and consisting of, in %by weight, 0.02-0.14% of C, not more than 0.90% of Si, 0.30-0.80% of Mn,0.70-1.60% of Cr, 0.40-0.70% of Mo, at least one of Al, Ti and Zr in anamount of 0.005-0.08% in each element, and the remainder beingsubstantially Fe, and having a ferrite-pearlite microstructure..Iaddend. .Iadd.10. In a feed-water heater comprising a water chamberprovided with an inlet and an outlet for the feed-water flowing throughthe heater, heat exchanging tubes in which the feed-water charged intothe heater through the inlet is heat exchanged and flowed to the outletof the heater, support plates supporting the heat exchanging tubes at aproper distance and a shell into which heating fluids for heating thefeed-water flowing in the heat exchanging tubes are introduced, theimprovement comprising at least one of the heat exchanging tubes, thesupport plates and the shell is composed of a low C-Cr-Mo steel havingbeen subjected to annealing treatment and consisting of, in % by weight,0.02-0.14% of C, not more than 0.90% of Si, 0.30-0.80% of Mn, 0.70-1.60%of Cr, 0.40-0.70% of Mo, at least one of not more than 0.5% of Cu, notmore than 0.5% of Ni and not more than 0.005% of B, at least one of Al,Ti and Zr in an amount of 0.005-0.08% in each element, and the remainderbeing substantially Fe, and having a ferrite-pearlite microstructure..Iaddend. .Iadd.11. In a feed-water heater comprising a water chamberprovided with an inlet and an outlet for the feed-water flowing throughthe heater, heat exchanging tubes in which the feed-water charged intothe heater through the inlet is heat exchanged and flowed to the outletof the heater, support plates supporting the heat exchanging tubes at aproper distance and a shell into which heating fluids for heating thefeed-water flowing in the heat exchanging tubes are introduced, theimprovement comprising at least one of the heat exchanging tubes, thesupport plates and the shell is composed of a low C-Cr-Mo steelsubjected to annealing treatment and consisting of, in % by weight,0.02-0.14% of C, not more than 0.90% of Si, 0.30-0.80% of Mn, 0.70-1.60%of Cr, 0.40-0.70% of Mo, at least one of not more than 0.5% of Cu, notmore than 0.5% of Ni and not more than 0.005% of B, at least one of notmore than 0.05% of Nb and not moe than 0.08% of V, at least one of Al,Ti and Zr in an amount of 0.005-0.08% in each element, and the remainderbeing substantially Fe, and having a ferrite-pearlite microstructure..Iaddend. .Iadd.12. In a feed-water comprising a water chamber providedwith an inlet and an outlet for the feed-water flowing through theheater, heat exchanging tubes in which the feed-water charged into theheater through the inlet is heat exchanged and flowed to the outlet ofthe heater, support plates supporting the heat exchanging tubes at aproper distance and a shell into which heating fluids for heating thefeedwater flowing in the heat exchanging tubes are introduced, theimprovement comprising at least one of the heat-exchanging tubes, thesupport plates and the shell is composed of a low C-Cr-Mo steelsubjected to annealing treatment and consisting of, in % by weight,0.02-0.14% of C, not more than 0.45% of Si, 0.30-0.80% of Mn, 0.70-1.60%of Cr, 0.40-0.70% of Mo, at least one of Al, Ti and Zr in an amount of0.005-0.08% in each element, and the remainder being substantially Fe,and having a ferrite-pearlite microstructure. .Iaddend. .Iadd.13. In afeed-water heater comprising a water chamber provided with an inlet andan outlet for the feed-water flowing through the heater, heat exchangingtubes in which the feed-water charged into the heater through the inletis heat exchanged and flowed to the outlet of the heater, support platessupporting the heat exchanging tubes at a proper distance and a shellinto which heating exchanging tubes are introduced, the improvementcomprising at least one of the heat exchanging tubes, the support platesand the shell is composed of a low C-Cr-Mo steel subjected to annealingtreatment and consisting of, in % by weight, 0.02-0.14% of C, not morethan 0.45% of Si, 0.30-0.80% of Mn, 0.70-1.60% of Cr, 0.40-0.70% of Mo,at least one of not not more than 0.5% of Cu, not more than 0.5% of Niand not more than 0.005% of B, at least one of Al, Ti and Zr in anamount of 0.005-0.08% in each element, and the remainder beingsubstantially Fe, and having a ferrite-pearlite microstructure..Iaddend. .Iadd.14. The feed-water heater as claimed in claim 10, 11 or13, wherein C is not more than 0.13%, Cu and Ni are 0.16-0.30%, in % byweight. .Iaddend.